CN219807021U - Automatic feeding and coiling production line - Google Patents

Abstract

The utility model discloses an automatic feeding and coiling production line, which relates to the technical field of pharmaceutical equipment and comprises a frame, wherein a filling and sealing machine, a space conveyor and an automatic coiling machine are sequentially arranged on the frame along the material conveying direction, and a channel which is convenient for personnel to pass through is arranged at the bottom of the space conveyor; the automatic tray machine comprises an empty tray conveying mechanism, a full tray conveying mechanism and an automatic tray loading mechanism which are arranged on the frame; vertical tray lifting mechanisms are arranged between the empty tray conveying mechanism and a tray inlet of the automatic tray loading mechanism and between the full tray conveying mechanism and a tray outlet of the automatic tray loading mechanism, tray pushing mechanisms are arranged between the empty tray conveying mechanism and the vertical tray lifting mechanisms and between the full tray conveying mechanism and the vertical tray lifting mechanisms, the discharging end of the space conveyor is connected with the feeding end of the automatic tray loading mechanism, ampoule bottles can be pushed into trays in batches, tray loading efficiency is improved, and meanwhile, the space conveyor with a working channel is arranged on a conveying line, so that personnel operation is facilitated.

Description

Automatic feeding and coiling production line

Technical Field

The utility model relates to the technical field of pharmaceutical equipment, in particular to an automatic feeding and coiling production line.

Background

Ampoule (ampoule) is a small glass container for holding medical fluids. The volume is generally 1 to 25ml. Is commonly used for storing injection liquid medicine and also used for packaging oral liquid. In large-scale industrial production, products, such as oral liquid medicine bottles or ampoule bottles, conveyed on a conveyor belt are required to be packaged or transported in a tray. At present, four tray loading schemes are mostly adopted in actual production, the first is that a tray with three coamings is adopted, and medicine bottles conveyed by a conveying belt are directly conveyed into the tray, but the strength of the tray is insufficient due to the fact that the tray is only provided with the three coamings, and meanwhile, in the process of conveying the tray, the medicine bottles are easy to fall off, so that multiple operations such as transferring and tray overturning are not facilitated; the second type adopts a pallet design of three fixed coamings and one pluggable coamings, and the pluggable coamings are easy to drop due to the defects of the pallet material strength and the pluggable coamings, and the first type of the pallet with three coamings also has the defects; thirdly, a tray with four fixed coamings is adopted, in actual operation, medicine bottles on a conveying belt are required to be sent into the tray with the four coamings, and then poured into the tray with the four coamings, in the process, the medicine bottles are easy to drop to damage the medicine bottles, the tray cannot be filled at one time, the tray is required to be supplemented, and time and labor are wasted; the fourth tray loading scheme is to use a manipulator or similar device to put the products into the tray, and this tray loading mode is low in efficiency and cannot be applied to all types of products, so a machine capable of realizing automatic tray loading and high in efficiency is needed.

Disclosure of Invention

The utility model aims to provide an automatic feeding and coiling production line, which solves the problems in the prior art, can push ampoule bottles into trays in batches, improves the dish-loading efficiency, and is convenient for personnel to operate due to the arrangement of a space conveyor with a working channel on a conveying line.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the automatic feeding and coiling production line comprises a frame, wherein a filling and sealing machine, a space conveyor and an automatic coiling machine are sequentially arranged on the frame along the conveying direction of materials, and a channel which is convenient for personnel to pass through is arranged at the bottom of the space conveyor; the automatic tray filling machine comprises an empty tray conveying mechanism, a full tray conveying mechanism and an automatic tray filling mechanism, wherein the empty tray conveying mechanism is arranged on the frame and used for conveying empty trays, the full tray conveying mechanism is used for conveying full trays, and the automatic tray filling mechanism is used for filling ampoule bottles into the empty trays; vertical tray lifting mechanisms are arranged between the empty tray conveying mechanism and the tray inlet of the automatic tray loading mechanism and between the full tray conveying mechanism and the tray outlet of the automatic tray loading mechanism, tray pushing mechanisms are arranged between the empty tray conveying mechanism and the vertical tray lifting mechanisms and between the full tray conveying mechanism and the vertical tray lifting mechanisms, and the discharge end of the space conveyor is connected with the feed end of the automatic tray loading mechanism.

In order to further optimize the utility model, the following technical scheme can be preferably selected:

preferably, a buffer room is also arranged between the space conveyor and the automatic disc-jockey machine.

Preferably, the space conveyor comprises a chain driving the ampoule bottles to move along an inverted V-shaped path at an inner ring, and the inclination angle of the inner ring is configured to not allow the liquid medicine of the ampoule bottles to flow into the bottle head.

Preferably, the rack is provided with a tensioning mechanism corresponding to the outer ring of the chain, the tensioning mechanism comprises a mounting seat which is locked on the rack and provided with a mounting cavity, a rotatable adjusting rod is arranged in the mounting cavity, the input end of the adjusting rod is meshed with the input shaft through a bevel gear, a sliding block screwed on the adjusting rod is clamped in the mounting cavity in an adaptive manner, a connecting plate penetrating on the adjusting rod is clamped in the mounting cavity in an adaptive manner, a spring compressed between the sliding block and the connecting plate is sleeved on the adjusting rod, the outer end of the connecting plate penetrates through the mounting seat and is connected with an adjusting wheel, and the adjusting wheel is meshed with the outer ring.

Preferably, the automatic tray loading mechanism comprises a tray loading platform arranged on the rack, an ampoule bottle feeding conveyor is arranged on the tray loading platform, and a tray with one open end is arranged on the tray loading platform corresponding to the position of the outlet end of the ampoule bottle feeding mechanism; the ampoule bottle pushing device is characterized in that a tray loading mechanism used for pushing ampoule bottles into the tray is arranged on the frame, the tray loading mechanism comprises a push plate movably arranged on the frame, and a driving mechanism used for driving the push plate to move along the length direction of the tray is arranged on the frame.

Preferably, the vertical tray lifting mechanism comprises a vertical supporting frame, a conveying chain is arranged on the vertical supporting frame in a side-by-side rotating mode, a supporting roller shaft used for supporting ampoule trays is arranged between the conveying chain in a side-by-side mode, a side stop block is arranged on the supporting roller shaft at a position deviating from the inlet end of the tray, a side stop rod used for blocking the side wall of the supporting tray is further arranged between the conveying chain, and the side stop block, the supporting roller shaft and the side stop block form a limiting supporting area used for supporting the tray.

Preferably, the tray pushing mechanism comprises a portal frame arranged between the empty tray conveying mechanism and the vertical tray lifting mechanism and between the full tray conveying mechanism and the vertical tray lifting mechanism, a pushing guide rail is arranged on the portal frame along the tray moving direction, a sliding block is movably arranged on the pushing guide rail, and a linear driving mechanism for driving the sliding block to move along the pushing guide rail is also arranged on the portal frame; the bottom of the sliding block is downwards provided with a box pushing head for pushing the tray.

Preferably, the inclination angle of the inner ring is 25-40 degrees.

The utility model has the following beneficial effects:

1. the equipment utilizes the mutual coordination of the empty tray conveying mechanism, the full tray conveying mechanism, the vertical tray lifting and conveying mechanism, the tray pushing mechanism, the filling and sealing machine and the space conveyor, can realize the automatic transportation of the tray, improves the tray conveying efficiency and is convenient for processing and production; in addition, the empty tray conveying mechanism and the full tray conveyor are arranged side by side up and down, the reasonable layout is convenient for reducing the occupied area of equipment, the space utilization rate is improved, meanwhile, the butt joint of the production line is convenient, and the space conveyor is designed with a working channel which is convenient for the walking of workers.

2. The ampoule bottle feeding conveyor and the tray loading mechanism are arranged in the device, and ampoule bottles can be pushed into the tray with the opening in batches by utilizing the ampoule bottle feeding conveyor and the tray loading mechanism, so that the tray loading efficiency is improved.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a front elevational view of the structure of the present utility model;

FIG. 3 is a schematic diagram of a chain arrangement of the spatial conveyor;

FIG. 4 is a schematic view of a tensioning mechanism of the space conveyor;

FIG. 5 is a schematic installation view of a connection plate of the space conveyor;

fig. 6 is a schematic perspective view of an ampoule transferring mechanism

Fig. 7 is a schematic diagram of a second perspective view of an ampoule transfer mechanism

In the figure: 1-a frame; 2-empty tray conveying mechanism; 3-full tray conveying mechanism; 4-a vertical pallet lifting mechanism; 5-a tray; 6-a tray pushing mechanism; 7. a bottle inlet end; 8. a bottle outlet end; 9-ampoule bottle feeding conveyor; 10-an automatic tray loading mechanism; 11-positioning table; 12-a bottle inlet channel; 13-a filling and sealing machine; 14-space conveyor; 15-an automatic disc-making machine; 16-pedestrian walkways; 17-buffer room; 18-a chain; 19-an inner ring; 20-an outer ring; 21-a mounting base; 211-mounting cavity; 22-adjusting the rod; 23-sliding blocks; 24-spring; 25-connecting plates; 26-an adjusting wheel; 27-a gear seat; 271-skateboards; 272-a sliding seat; 28-an input shaft; 29-bevel gears; 30-tensioning mechanism; 31-a frame body;

201-a vertical support frame; 202-a conveying chain; 203-supporting a roll shaft; 204-side stops; 205-fixed blocks, 206-side stop bars; 207-portal frame; 208-pushing the guide rail; 209-a slider; 210-pushing the cartridge head; 211-a linear drive mechanism; 212-a mounting base; 213-push-box lever; 214-a first conveying plane; 215-lifting a conveying facade; 216-a second conveying plane; 217-supporting a guard plate; 218-a drive pulley;

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model.

The utility model provides the technical scheme that: as shown in fig. 1-7, in this embodiment,

the automatic feeding and coiling production line comprises a frame 1, wherein a filling and sealing machine 13, a space conveyor 14 and an automatic coiling machine 15 are sequentially arranged on the frame along the material conveying direction, and a pedestrian passageway 16 which is convenient for people to pass through is arranged at the bottom of the space conveyor 4; the space conveyor 14 comprises a frame 31, two chains 18 arranged on the inner side of the frame 31, a bottle inlet end 7 and a bottle outlet end 8, ampoule bottles enter the chain 18 from the bottle inlet end 7 and are lifted and conveyed along an inverted V-shaped path after being clamped by an inner ring 19 of the chain 18, and finally the ampoule bottles are moved out of the space conveyor 14 through the bottle outlet end 7, so that the medicine bottle conveyor can prevent medicine liquid in ampoule bottles from flowing into bottle heads in the lifting and conveying process, can avoid medicine liquid from being polluted, can not change the lifting and conveying path of ampoule bottles on the premise of ensuring the tension of the chain, ensures the normal service life of equipment and improves user experience. The tensioning mechanism is designed on the frame corresponding to the outer ring of the chain, the tensioning mechanism 30 comprises a mounting seat 21, an adjusting rod 22, a connecting plate 25 and an adjusting wheel 26, wherein the mounting seat 21 is locked on a frame body 31, the mounting seat 21 defines a mounting cavity 211, the adjusting rod 22 is rotatably arranged inside the mounting cavity 211, the connecting plate 25 and the sliding block 23 are in fit connection with each other in the mounting cavity 211, the sliding block 23 is rotatably connected to the adjusting rod 22, the connecting plate 25 is arranged on the adjusting rod 22 in a penetrating mode, meanwhile, a spring 24 compressed between the sliding block 23 and the connecting plate 25 is sleeved on the adjusting rod 22, the outer end of the connecting plate 25 is connected with the adjusting wheel 26 after penetrating through the mounting seat 21, and the adjusting wheel 25 is meshed with the inner side of the outer ring 20 of the chain 18. Through mutually supporting between regulation pole 22, slider 23, spring 24 and connecting plate 25, when rotating regulation pole 22, owing to the restriction of installation cavity 211 makes slider 23 can only follow regulation pole 22 and remove, spring 24 can promote connecting plate 25 and also follow regulation pole 22 after being compressed by slider 23 and remove, and then drive regulating wheel 26 and remove, thereby the tensioning degree of chain 18 is adjusted through the push-pull of regulating wheel 26, owing to connecting plate 25 is removed under the flexible thrust of spring 24, consequently the push-pull force of regulating wheel 26 to chain 18 is flexible force, can avoid chain 18 to receive the rigidity pulling and harm, guaranteed the normal life of equipment. Through the cooperation of mount pad 21 and regulation pole 22 and connecting plate 25, can guarantee the stationarity of the linear motion of connecting plate 25 removal. By the cooperation of the adjusting wheel 26 and the outer ring 20 of the chain 18, the path of ampoule lifting and conveying along the inner ring 19 of the chain 18 can not be changed under the premise of ensuring the tension of the chain 18.

The tensioning mechanism 2 according to the embodiment of the utility model is arranged on the inner side of the outer ring 20 of the chain 18, meanwhile, the inner ring 19 of the chain 18 is arranged along an inverted V-shaped path and drives ampoule bottles to move along the inverted V-shaped path, and the inclination angle of the inner ring 141 is configured to not allow the liquid medicine of the ampoule bottles to flow into the bottle heads, so that the liquid medicine is ensured not to be polluted due to flowing into the bottle heads in the process of lifting and transporting the ampoule bottles. The path through with the chain inner circle is arranged into the inverted V type structure that can prevent the liquid medicine inflow bottle of ampoule, can provide the working channel of an inverted V type under the prerequisite that liquid medicine was polluted in preventing to promote the transportation, through arranging straining device at the outer lane of chain, can not change the promotion transportation path of ampoule when guaranteeing the chain rate of tension, utilize the cooperation of connecting plate with adjusting the pole, can provide flexible thrust for the removal of connecting plate when rotating the regulation pole, avoid the chain to damage because of the rigidity stretch-draw, guaranteed the normal life of equipment, promoted user experience.

The automatic tray filler 15 comprises an empty tray conveying mechanism 2 which is arranged on the frame 1 and used for conveying empty trays, a full tray conveying mechanism 3 which is used for conveying full trays, and an automatic tray filling mechanism 10 which is used for filling ampoule bottles into the empty trays; vertical tray lifting mechanisms 4 are arranged between the empty tray conveying mechanism and the tray inlet of the automatic tray loading mechanism and between the full tray conveying mechanism and the tray outlet of the automatic tray loading mechanism, tray pushing mechanisms 6 are arranged between the empty tray conveying mechanism and the vertical tray lifting mechanisms and between the full tray conveying mechanism and the vertical tray lifting mechanisms, and the discharge end of the space conveyor is connected with the feed end of the automatic tray loading mechanism. A tray pushing mechanism 6 is arranged between the hollow tray conveying mechanism and the vertical tray lifting mechanism and between the full tray conveying mechanism and the vertical tray lifting mechanism; wherein the feed direction of the pallet pushing mechanism 6 is arranged perpendicular to the conveying direction of the conveying chain. The tray pushing mechanism comprises a portal frame 207 which is arranged on the frame, a pushing guide rail 208 is arranged on the portal frame 207 along the moving direction of the tray, a sliding block 209 is movably arranged on the pushing guide rail, and a linear driving mechanism 211 for driving the sliding block to move along the pushing guide rail is also arranged on the portal frame; a pushing box head 210 for pushing the tray is arranged downwards at the bottom of the sliding block; the box pushing head is rotatably arranged on the sliding block, an inverted L-shaped mounting seat 212 is arranged on the sliding block, and the box pushing head is hinged on the inverted L-shaped mounting seat through a rotating shaft so that the box pushing head can only turn over along one direction, and a box pushing rod 213 is arranged at the bottom of the box pushing head; the box pushing head with hinged design is adopted to ensure that the tray cannot interfere when the box pushing head resets; preferably, the linear driving mechanism adopts one of a driving screw rod, an electric push rod and a hydraulic push rod.

Wherein vertical tray lifting mechanism 4 includes vertical support frame 201, and vertical support frame 201 is last to rotate side by side to install conveyor chain 202, installs the back-up roll 203 that is used for supporting ampoule tray side by side between the conveyor chain 202, and the concrete mounting means of back-up roll is: the inner side of the conveying chain is provided with a mounting hole along the circumferential direction, a fixed block is connected through the mounting hole, a supporting roller shaft is arranged between the two fixed blocks 205, a side stop block 204 is arranged on one side of the supporting roller shaft 203, which is away from the inlet end of the tray, wherein the side stop block is of a semicircular structure, and the bottom of the side stop block is of a plane design; a side stop lever 206 for blocking and supporting the side wall of the tray is also arranged between the conveying chains, and the side stop block, the supporting roller shaft and the side stop block form a limiting and supporting area for supporting the tray, so that the mounting positions of the side stop lever and the side stop block can be adjusted according to the size of the tray, and the position of the proper limiting area can be adjusted; in addition, the side check block, the supporting roll shaft and the side check block are utilized to support and limit the tray, so that the tray is prevented from being separated in the lifting process. Wherein, a plurality of groups of driving belt pulleys 218 are arranged on the vertical lifting frame corresponding to the positions of the driving belts, the driving belt pulleys are connected with a driving motor, and the conveying chains form a first conveying plane 214, a lifting conveying elevation 215 and a second conveying plane 216. The supporting guard plates 217 are arranged at the edge positions of the two sides of the vertical lifting frame corresponding to the lifting conveying elevation, and support is carried out in the tray conveying process by utilizing the supporting guard plates, so that the flatness of the vertical lifting process is ensured.

In the embodiment, the hollow tray conveying mechanism and the full tray conveying mechanism are both roller conveyors and can be replaced by other conveyors, and in the embodiment, the hollow tray conveying mechanism 2 and the full tray conveying mechanism 3 are arranged side by side up and down, so that the reasonable layout is convenient for reducing the occupied area of equipment, improving the space utilization rate and facilitating the butt joint of production lines; the top box outlet and the top box inlet of two vertical tray lifting mechanisms are opposite in position, the bottom box inlet of one vertical tray lifting mechanism is flush with the conveying surface of the empty tray conveying mechanism, the empty tray is fed continuously from the empty tray conveying mechanism, then the empty tray is pushed onto the vertical tray lifting mechanism through the tray pushing mechanism, the bottom box outlet of the other tray pushing mechanism is flush with the conveying surface of the full tray conveyor, the filled tray is pushed onto the full tray conveyor through the vertical tray lifting mechanism and the tray pushing mechanism, and then the tray is conveyed to the subsequent packaging, sterilization and other treatments. Wherein automatic sabot mechanism includes the sabot platform of installing on frame 1, installs ampoule on the sabot platform and advances bottle conveyer 9, and wherein ampoule advances bottle conveyer can refer to the bottle mechanism among the prior art, for example patent that this company applied for: CN207943462U is a glass bottle conveying device; a tray 5 of ampoule bottles with one end open is arranged on the tray loading platform corresponding to the outlet end position of the ampoule bottle feeding mechanism; wherein the three-sided opening of tray of ampoule, the other face is the fly leaf and articulates on the tray 5 of ampoule, installs the sabot mechanism in the tray that is used for pushing the ampoule to the ampoule in the frame, and sabot mechanism includes movable mounting push pedal in the frame, installs the actuating mechanism who is used for driving the push pedal and remove along the tray length direction of ampoule in the frame, and this device sabot mechanism, actuating mechanism's specific design structure can refer to the publication number: CN115892945a "an ampoule bottle automatic disc-making machine".

The working principle of the production equipment is as follows:

firstly, the filling and sealing machine is used for filling and sealing ampoule bottles, a space conveyor is used for conveying the ampoule bottles forwards, the ampoule bottles continue to convey forwards after entering a buffer room, an empty tray lifting mechanism is used for lifting the tray of the ampoule bottles upwards to the equal height of a tray loading platform, the tray loading platform in the tray loading mechanism is lowered to enable the tray to fall onto a tray conveying chain, the tray conveying chain drags the tray to move leftwards, and at the moment, a tray positioning rod is ejected and tightens up to position the tray. After the position is fixed, the tray platform is lifted to hold the tray, then the tray is loaded, the tray loading cylinder drives the push plate to slowly move rightwards in front of the ampoule bottle to prevent bottle pouring, the tray loading cylinder drives the push plate to move rightmost of the tray, the cylinder push rod pops out and drags the tray to move leftwards to the ampoule bottle conveying belt positioning table, the tray loading cylinder push rod is retracted, the tray loading cylinder continues to move leftwards to be aligned with the tray loading cylinder, the tray loading cylinder push rod is retracted and moves leftwards to the positioning table together with the tray loading cylinder, the two cylinder push rods pop out simultaneously, and the cylinder pushes the ampoule bottle to move rightwards until the tray is full of reset; after the tray loading is finished, the tray movable plate rotates from the right side to the left side of the tray under the action of the tray closing mechanism, the tray is closed at the moment, and the tray loading cylinder is retracted and reset. When the tray loading is completed, the cylinder positioning rod is retracted, the tray platform descends, the tray conveying chain continuously conveys the tray filled with bottles leftwards and downwards to be flush with the upper roller, the tray shifting swing arm moves the tray to the upper roller, the roller conveys the tray forwards, and the automatic tray machine is completed.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. An automatic pay-off is made a disc production line, its characterized in that: the automatic filling and sealing machine comprises a frame, wherein a filling and sealing machine, a space conveyor and an automatic disc-making machine are sequentially arranged on the frame along the material conveying direction, and a channel which is convenient for personnel to pass through is arranged at the bottom of the space conveyor; the automatic tray filling machine comprises an empty tray conveying mechanism, a full tray conveying mechanism and an automatic tray filling mechanism, wherein the empty tray conveying mechanism is arranged on the frame and used for conveying empty trays, the full tray conveying mechanism is used for conveying full trays, and the automatic tray filling mechanism is used for filling ampoule bottles into the empty trays; vertical tray lifting mechanisms are arranged between the empty tray conveying mechanism and the tray inlet of the automatic tray loading mechanism and between the full tray conveying mechanism and the tray outlet of the automatic tray loading mechanism, tray pushing mechanisms are arranged between the empty tray conveying mechanism and the vertical tray lifting mechanisms and between the full tray conveying mechanism and the vertical tray lifting mechanisms, and the discharge end of the space conveyor is connected with the feed end of the automatic tray loading mechanism.

2. An automatic feeding and coiling production line according to claim 1, characterized in that: and a buffer room is also arranged between the space conveyor and the automatic disc-playing machine.

3. An automatic feeding and coiling production line according to claim 1, characterized in that: the space conveyor comprises a chain which drives the ampoule bottle to move along an inverted V-shaped path at an inner ring, and the inclination angle of the inner ring is configured to not allow the liquid medicine of the ampoule bottle to flow into a bottle head.

4. An automatic feed and coiling production line according to claim 3, characterized in that: the tensioning mechanism comprises a mounting seat which is locked on the frame and provided with a mounting cavity, a rotatable adjusting rod is arranged in the mounting cavity, the input end of the adjusting rod is meshed with the input shaft through a bevel gear, a sliding block which is screwed on the adjusting rod is clamped in the mounting cavity in an adaptive manner, a connecting plate which penetrates through the adjusting rod is clamped in the mounting cavity in an adaptive manner, a spring which is compressed between the sliding block and the connecting plate is sleeved on the adjusting rod, and the outer end of the connecting plate penetrates through the mounting seat and is connected with an adjusting wheel which is meshed with the outer ring.

5. An automatic feeding and coiling production line according to claim 1, characterized in that: the automatic tray loading mechanism comprises a tray loading platform arranged on the frame, an ampoule bottle feeding conveyor is arranged on the tray loading platform, and a tray with one open end is arranged on the tray loading platform corresponding to the position of the outlet end of the ampoule bottle feeding mechanism; the ampoule bottle pushing device is characterized in that a tray loading mechanism used for pushing ampoule bottles into the tray is arranged on the frame, the tray loading mechanism comprises a push plate movably arranged on the frame, and a driving mechanism used for driving the push plate to move along the length direction of the tray is arranged on the frame.

6. An automatic feeding and coiling production line according to claim 1, characterized in that: the vertical tray lifting mechanism comprises a vertical supporting frame, conveying chains are arranged on the vertical supporting frame in a parallel rotating mode, supporting roller shafts used for supporting ampoule trays are arranged between the conveying chains side by side, side stop blocks are arranged on the supporting roller shafts at one side positions deviating from the inlet ends of the trays, side stop rods used for blocking the side walls of the supporting trays are further arranged between the conveying chains, and the side stop blocks, the supporting roller shafts and the side stop blocks form a limiting supporting area used for supporting the trays.

7. An automatic feeding and coiling production line according to claim 1, characterized in that: the tray pushing mechanism comprises a portal frame arranged between the empty tray conveying mechanism and the vertical tray lifting mechanism and between the full tray conveying mechanism and the vertical tray lifting mechanism, a pushing guide rail is arranged on the portal frame along the tray moving direction, a sliding block is movably arranged on the pushing guide rail, and a linear driving mechanism for driving the sliding block to move along the pushing guide rail is also arranged on the portal frame; the bottom of the sliding block is downwards provided with a box pushing head for pushing the tray.

8. An automatic feed and coiling production line according to claim 3, characterized in that: the inclination angle of the inner ring is 25-40 degrees.